Yihang Li , Haijing Zhou , Longfei Li , Song Lu , Guang Xie , Jian Zhang , Qiang Feng
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引用次数: 0
摘要
通过使用准原位 EBSD,我们成功地探测了预压缩后的铸态单晶超级合金在 1300 °C 亚固溶退火过程中再结晶晶粒的成核和生长。研究清楚地表明,在实验条件下,再结晶是通过低角度晶界迁移而不是亚晶粒凝聚或热孪晶在枝晶间区域成核的。尽管受到枝晶间区域未溶解的γ′沉淀的阻碍,这些新形成的高角度晶界仍能快速迁移。但是,随着储存能量的降低,迁移速度会迅速减慢。在 10.0 分钟的退火过程中,晶界可迁移 14.4-27.4 μm,但再结晶的晶粒仍被限制在树枝间区域,没有异常生长。这些结果为理解单晶超合金中再结晶成核以及新形成的高角度晶界在γ′析出物阻碍下的迁移提供了新的视角,对开发控制再结晶的工艺具有重要价值。
Recrystallization in a Ni-based single-crystal superalloy traced by quasi-in-situ EBSD
By using quasi-in-situ EBSD, we successfully probed the nucleation and growth of recrystallized grains during sub-solvus annealing at 1300 °C of an as-cast single-crystal superalloy after pre-compression. It clearly indicated that recrystallization nucleated in the interdendritic region through low-angle grain boundary migration under the experimental condition rather than subgrain coalescence or thermal twinning. Despite being hindered by the undissolved γ′ precipitates in the interdendritic region, these newly formed high-angle grain boundaries could still migrate rapidly. However, the migration velocity will slow quickly as the stored energy decreases. During 10.0-min annealing, the grain boundaries could migrate 14.4–27.4 μm, but the recrystallized grains were still confined in the interdendritic region without abnormal growth. These results provide novel perspective on the comprehension of recrystallization nucleation in single-crystal superalloys and the migration of newly formed high-angle grain boundaries under the hinderance of γ′ precipitates, and are valuable for developing process to control recrystallization.
期刊介绍:
Scripta Materialia is a LETTERS journal of Acta Materialia, providing a forum for the rapid publication of short communications on the relationship between the structure and the properties of inorganic materials. The emphasis is on originality rather than incremental research. Short reports on the development of materials with novel or substantially improved properties are also welcomed. Emphasis is on either the functional or mechanical behavior of metals, ceramics and semiconductors at all length scales.
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